DE949838C - Insulator that is exposed to dirt deposits in connection with high humidity - Google Patents

Description

Insulator that removes dirt deposits in connection with high humidity It is a high-voltage isolator with several roofs or grooved walls known, the surfaces of which are wet from one side when it rains and the Übersohlagsweg influence. The insulator .is: so designed, i.e. apart from the top one, the roof too still other wetting surfaces between the pores in Richhur% g of the generators have running metallic coatings, for example made of metal strips, for the purpose of reducing the flashover strength, in the dry state.

Furthermore, an insulator made of organic Isäliersboff, in particular from Istiliersborff! which is not Kriedhstrorn-resistant! known. Fibers, in particular hard paper, serve as the material for this insulator or the like, d. H. in other words, substances that are inherently hygroscopic. Corresponding the described structure of the isolator, it is an isolator for interior design. With this insulator, the idea is pursued, even with the slightest absorption of moisture an iso uneven; ä.ß.igc stress distribution along the surface creep path to bring about that current heat effects are triggered on parts of the surface, which these albumin dry before creeping-track discharges can develop. It follows from this that the goal is sought will, one, down .all circumstances completely dry insulator half, which in case it is undesirable Wise moisture should have accepted by the then onset of weakness Glow discharge is dried off. This desired effect is also supported: as a result of that. Isollators designed as a winding body at one or both end ends a zone of low moisture absorption is arranged.

The invention relates to an insulator, the dirt deposits in Connection with, high humidity. Overshoots. On dirty Isolators for high and. Highest voltage lines arise mainly from dlaß d'ie dirt accumulation in connection with high humidity, z. B. at Fog, which causes a very uneven voltage distribution along the insulator. With such porcelain anisalators, which are usually provided with a glaze and are therefore not or practically not hygroscopic, it has already been suggested that to provide semiconducting glazes in order to allow a low conductive current and in order to force an even distribution of tension in this way. this happens on the basis of the suggestion mentioned at the beginning. However, have such semi-sliding glazes have several disadvantages: i. About the semiconducting glaze A constant leakage current flows, and not only when it is used to control the potential is needed when it is foggy, but also when it,: for example, when it is dry Weather is not required.

2. Local heating of the insulator, e.g. B. by solar radiation, can lead to an impermissible lowering of the surface resistance., an increase the leakage current, an additional further heating by the larger current and ultimately lead to the destruction of this I.soilator.

These disadvantages become with an insulator that has dirt build-up is exposed in connection with high humidity, avoided according to the invention by an intentionally made hygroscopic surface to a certain extent, with an even binding of the air humidity on the whole surface a homogeneous semiconducting ability of the same and therefore a uniform voltage distribution 'is achieved along the isolator. With dry air, if the isolator anyway is not endangered, the hygroscopic surface does not work. Then no flows Leakage current, and the under i. mentioned disadvantage is avoided. The ones listed under 2 disadvantageous phenomena do not occur, because also, with local heating no decrease in resistance occurs. Rather, in contrast to this, a Increased resistance through drying on the heated side, while on the shadowy side a .potential-controlling effect through the evenly moistened surface initially still persists. As the drying progresses, the potentia'.l-controlling effect decreases but to the same extent also the cause of the fault, namely the moisture itself. The usefulness of the inventive idea, namely the cause of the malfunction (moisture) to use it at the same time to prevent interference, comes out clearly here to expression.

To produce a hygroscopic surface, it is advisable to use the surface of the insulator silica gel or the like. Durably bound in a suitable form.

If dirt is deposited on the isolator, the hygroscopic The surface either works through the layer of dirt or it is just on effective in the clean areas. The desired effect can also be achieved in the second case can be achieved, because the layers of dirt are usually moisture-binding themselves enough, and the hygroscopic surface then only remains to bridge the clean areas with a moisture layer of approximately the same semiconductor capacity like in the dirty places.

The hygroscopic coating may be more effective if it not on the entire surface, but only on one or more strips is.

Sometimes a combination of the hygroscopic surface with a water-repellent layer appropriate. An isolator with hygroscopic longitudinal stripes can e.g. B. on the non-hygroscopic parts of its surface with a water-repellent Layer are provided.

The potential-controlling effect of the hygroscopic layer can optionally supported by a moderate, permanently effective semiconducting coating of the insulator will.

Finally, it is a combination of hygroscopic, water-repellent and permanent effective semiconducting surface possible.

Claims (7)

PATENT CLAIMS: i. Insulator that is exposed to dirt deposits in connection with high humidity, characterized by an intentionally hygroscopic to a certain extent. Made surface, in which a homogeneous conductivity of the same and thus a uniform stress distribution along the istilator is achieved through a uniform binding of the air humidity over the entire surface. 2. Isolator according to claim i, characterized in that that on its surface a layer of silica gel or similarlidham material in a suitable Form is durable bound. 3. Isolator according to claim i, characterized in that that only one or a few longitudinal strips of the insulator surface are made hygroscopic. q .. Isoilator -according to claim i, characterized .by the combination of hygroscopic and water-repellent surface parts. 5. Isdlator according to claim 3, characterized in that that the non-hygroscopic parts of its surface with a water-repellent Layer are provided. 6. Isolator according to claim i or 3, characterized through the combination of a hygroscopic and a permanently effective semiconducting one Surface. 7. Insulator according to claim i or 3, characterized by the combination of a hygroscopic, a water-repellent and a permanently effective; semiconducting surface. Publications considered: German Patent Specifications No. 316 154, gis 464.